Earth as an evolving planetary system:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier Acad. Press
2011
|
| Ausgabe: | 2. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Originally published: 2005 |
| Beschreibung: | XVIII, 574 S. Ill., graph. Darst., Kt. |
| ISBN: | 9780123852274 0123852277 |
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| 100 | 1 | |a Condie, Kent C. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Earth as an evolving planetary system |c Kent C. Condie |
| 250 | |a 2. ed. | ||
| 264 | 1 | |a Amsterdam [u.a.] |b Elsevier Acad. Press |c 2011 | |
| 300 | |a XVIII, 574 S. |b Ill., graph. Darst., Kt. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
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Datensatz im Suchindex
| _version_ | 1804148596033978368 |
|---|---|
| adam_text | Contents
Preface
xvii
1.
Earth Systems
1
Earth as a Planetary System
1
Structure of Earth
3
Plate Tectonics
5
Is the Earth Unique?
7
Interacting Earth Systems
8
Further Reading
10
2.
The Crust
11
Introduction
11
Seismic Crustal Structure
11
The
Moho
11
Crustal Layers
13
Complexities in the Lower Continental Crust
14
Crustal Types
17
Oceanic Crust
1 7
Seismic Features
1 7
Ocean Ridges
18
Ocean Basins
19
Volcanic Islands
20
Trenches
20
Back-Arc Basins
20
Transitional Crust
20
Oceanic Plateaus
20
Arcs
21
Continental Rifts
22
Inland-Sea Basins
23
Continental Crust
23
Shields and Platforms
23
Orogens
24
Continent Size
25
Heat Flow
26
Heat Flow Distribution
26
Heat Production and Heat Flow in the Continents
27
Age Dependence of Heat Flow
30
Contents
Exhumation
and Cratonization
32
Unraveling Pressure-Temperature-Time Histories
33
Some Typical P-T-t Paths
34
Cratonization
35
Processes in the Continental Crust
37
Rheology
37
The Role of Fluids and Crustal Melts
38
Crustal Composition
39
Approaches
39
Seismic Wave Velocities
40
Seismic Reflections in the Lower Continental Crust
42
Sampling of Precambrian Shields
44
Use of Fine-Crained Detrital Sediments
44
Exhumed Crustal Blocks
45
Crustal Xenoliths
47
An Estimate of Crustal Composition
48
Continental Crust
48
Oceanic Crust
50
Complementary Compositions of Continental
and Oceanic Crust
51
Crustal Provinces and
Terranes
51
Crustal Province and Terrane Boundaries
55
The United Plates of America
57
Further Reading
57
3.
Tectonic Settings
59
Introduction
59
Ocean Ridges
60
Ocean Ridge Basalts
60
Ophiolites
61
General Features
61
Tectonic Setting and Emplacement of Ophiolites
63
Formation of Ophiolites
65
Precambrian Ophiolites
66
Tectonic Settings Related to Mantle Plumes
66
Large Igneous Provinces
66
Oceanic Plateaus and Aseismic Ridges
67
Rifted Continental Margins
68
Continental Flood Basalts
70
Hotspot Volcanic Islands
71
Giant Mafic Dyke Swarms
73
Continental Rifts
75
General Features
75
Rock Assemblages
77
Rift Development and Evolution
78
Contents
vii
Cratons and Passive
Margins
80
Arc Systems
81
Subduction-Related Rock Assemblages
81
Trenches
81
Accretionary Prisms
82
Forearc Basins
83
Arcs
84
Back-Arc Basins
84
Remnant Arcs
85
Retroarc Foreland Basins
85
Arc Processes
86
High-Pressure Metamorphism
89
Igneous Rocks
89
Compositional Variation of Arc Magmas
91
Orogens
92
Three Types of
Orogens
92
Collisional
Orogens
93
Accretionary
Orogens
95
Intracratonic
Orogens
95
Orogenic Rock Assemblages
96
Tectonic Elements of Collisional
Orogens
97
Sutures
99
Foreland and Hinterland Basins
99
The Himalayas
100
Uncertain Tectonic Settings
101
Anorogenic Granites
101
General Features
101
Associated Anorthosites
103
Tectonic Setting
103
Archean Greenstones
104
General Features
104
Greenstone Volcanics
106
Greenstone Sediments
108
Granitoids
110
Mineral and Energy Deposits
111
Mineral Deposits
111
Ocean Ridges
111
Arc Systems
113
Orogens
114
Continental Rifts
114
Cratons and Passive Margins
114
Archean Greenstones
115
Energy Deposits
115
Plate Tectonics with Time
117
Further Reading
118
v¡¡¡
Contents
4.
The Mantle 121
Introduction 121
Seismic Structure of the Mantle
121
Upper Mantle
12Ί
Lower Mantle
123
Mantle Upwellings and
Geoid
Anomalies
123
Temperature Distribution in the Mantle
126
The
Lithosphère 1
30
Oceanic
Lithosphère
131
Continental
Lithosphère
132
Composition
132
Seismic Velocity Constraints
132
Mantle Xenoliths 134
Chemical Composition
136
Thickness
139
Subductability
141
Age of Subcontinental
Lithosphère
141
The Low-Velocity Zone
144
The Transition Zone
145
The 410-km Discontinuity
145
The 520-km Discontinuity
147
The 660-km Discontinuity
148
The Lower Mantle
149
General Features
149
Descending Slabs
150
The D Layer
152
Spin Transitions
155
Water in the Mantle
1 55
Plate Driving Forces
1 56
Mantle Plumes
1 57
Hotspots
158
Plume Characteristics
161
Tracking Plume Tails
163
Plume Sources
164
Mantle Geochemical Components
165
Identifying Mantle Components
166
Summary
166
Depleted Mantle
166
HIMU
168
Enriched Mantle
169
Helium Isotopes
170
Archean Geochemical Components
171
Mixing Regimes in the Mantle
1 71
Overview
173
Convection in the Mantle
1 74
The Nature of Convection
1 74
Passive Ocean Ridges
1 75
Contents
¡χ
Layered Convection Model
176
Toward a Convection Model for Earth
178
Further Reading
180
5.
The Core
181
Introduction
181
Core Temperature
182
The Inner Core
182
Anisotropy of the Inner Core
182
Inner Core Rotation
185
Composition of the Core
186
Age of the Core
188
Generation of Earth s Magnetic Field
189
The Geodynamo
189
Fluid Motions in the Outer Core
189
Fueling the Ceodynamo
191
How the Ceodynamo Works
192
What Causes Magnetic Reversals?
193
Origin of the Core
194
Segregation of Iron in the Mantle
194
Siderophile Element Distribution in the Mantle
195
Growth and Evolution of the Core
196
What the Future Holds
196
Further Reading
197
6.
Earth s Atmosphere, Hydrosphere, and Biosphere
199
The Modern Atmosphere
199
The Primitive Atmosphere
201
The Post-Collision Atmosphere
203
Composition of the Early Atmosphere
203
Growth Rate of the Atmosphere
204
The Faint Young Sun Paradox
205
The Precambrian Atmosphere
206
The Carbon Cycle
208
The Carbon Isotope Record
209
General Features
209
The 2200-Ma Carbon Isotope Excursion
211
The Sulfur Isotope Record
212
Phanerozoic Atmospheric History
214
The Hydrosphere
216
Sea Level
217
The Early Oceans
219
Changes in the Composition of Seawater with Time
220
Marine Carbonates
220
The Dolomite-Limestone Problem
222
Evaporites
223
Contents
Banded Iron Formation
224
The Biochemical Record of Sulfur
224
Sedimentary Phosphates
225
The Temperature of Seawater
226
Ocean Volume through Time
229
Euxinia in the Proterozoic Oceans
229
Paleoclimates
231
Paleoclimatic Indicators
231
Long-Term Paleoclimatic Driving Forces
233
Glaciation
233
Precambrian Climatic Regimes
235
Phanerozoic Climatic Regimes
238
Glaciation
238
The Biosphere
240
Appearance of Eukaryotes
240
Origin of Metazoans
242
Stromatolites
242
Neoproterozoic Multicellular Organisms
244
The Cambrian Explosion
244
Evolution of Phanerozoic Life-Forms
247
Biological Benchmarks
249
Mass Extinctions
250
Episodic Distributions
251
Glaciation
and Mass Extinction
253
Impact-Related Extinctions
254
Environmental Changes
254
Earth-Crossing Asteroids
256
Comets
257
The Triassic Extinction
257
Impact and a 580-Ma Extinction
258
Epilogue
258
Further Reading
259
7.
Crustal and Mantle Evolution
261
Introduction
261
The Hadean
261
Extinct Radioactivity
261
Hadean Zircons
263
Origin of the First Crust
266
Composition of the Primitive Crust
267
Felsic Models
268
Anorthosite Models
268
Basalt and Komatiite Models
269
Earth s Oldest Rocks
269
Crustal Origin
273
How Continents Grow
275
Contents
XÎ
General Features 275
Growth by Mafic Underplating
276
Oceanic Plateaus and Continental Growth
277
Growth by Plate Collisions
278
Continental Growth Rates
280
The Role of Recycling
281
Delamination
283
Juvenile Crust
284
Oxygen Isotopes
285
Neodymium Isotopes
285
Hafnium Isotopes and Detrital Zircons
288
Juvenile Crust in Extensional Settings
291
Freeboard
291
Continental Growth in the Last
200
Ma
292
Toward a Continental Growth Model
293
The Approach
293
The Model
294
The
2.4-
to 2.2-Ga Crustal Age Gap
295
Secular Changes in the Continental Crust
297
Major Elements
298
Rare Earth and Related Elements
298
Nickel, Cobalt, and Chromium
300
Oceanic Plateaus as Starters for Archean Continents
300
Secular Changes in the Mantle
301
Tracking Mantle Geochemical Components into the Archean
302
Mantle
Lithosphère
Evolution
303
Continental
Lithosphère
303
Oceanic
Lithosphère
305
Ophiolites
305
Blueschists and Ultra-High-Pressure Metamorphic Rocks
307
Earth s Thermal History
308
Magma Oceans
309
How Hot Was the Archean Mantle?
310
Thermal Models
314
Further Reading
316
8.
The
Supercontinent
Cycle
317
Introduction
317
Supercontinent
Reconstruction
319
Continental Collisions and the Assembly of
Supercontinents
325
The First
Supercontinent
326
Later
Supercontinents
328
Nuna
(Columbia)
328
Rodinia
329
Gondwana and Pangea
331
xii Contents
The
Supercontinent Cycle
332
Episodic Ages
332
Patterns of Cyclicity
335
Relationship to Earth History
336
Mineral Deposit Age Patterns
336
Strontium Isotopes in Marine Carbonates
337
Sea Level Variations
339
Supercontinents
and Evolution
340
Mantle
Superplume
Events
342
Superplume
Events
343
Mantle Plumes and
Supercontinent
Breakup
344
Episodic LIP Events
349
Slab Avalanches
349
Supercontinents, Superplumes,
and the Carbon Cycle
350
Supercontinent
Formation
351
Supercontinent
Breakup
353
Mantle
Superplume
Events
353
Epilogue
354
Further Reading
354
Great Events in Earth History
357
Introduction
357
Event
1:
Origin of the Moon
358
How Rare Is the Earth-Moon System?
358
Constraints on Lunar Origin
358
The Fission Model
362
Double Planet Models
362
Capture Models
363
Giant Impactor Model
363
Early Thermal History of the Moon
366
Event
2:
Origin of Life
367
The Role of Impacts
368
The
RNA
World
370
Hydrothermal
Vents
372
Possible Site for the Origin of Life
372
Experimental and Observational Evidence
375
The First Life
375
Evidence of Early Life
376
The Origin of Photosynthesis
378
Anoxygenic Photosynthesis
378
Oxygenic Photosynthesis
379
The Tree of Life
381
The First Fossils
382
Possibility of Extraterrestrial Life
384
Event
3:
The Onset of Plate Tectonics
386
Plate Tectonic Indicators
386
Contents xiii
Global
Changes
at the End of the Archean
389
Decrease in Mantle Temperature
389
Komatüte
Abundance
389
MgO Content of
Kornati
¡tes
389
Ni/Fe
Ratio in Banded Iron Formation
391
Degree of Upper Mantle Melting
391
The Growth of Cratons
392
Nb/Th Ratio and Neodymium Isotopes in Basalts
392
Changes in Granitoid Compositions
393
Oxygen Isotopes in Zircons
394
Gold Reserves
394
Thickening of the Archean
Lithosphère
395
How Did Plate Tectonics Begin: Thermal Constraints
397
When Did Plate Tectonics Begin?: The Ongoing Saga
399
Conclusions
402
Event
4:
The Great Oxidation Event
402
Oxygen Controls in the Atmosphere
402
Geologic Indicators of Ancient Atmospheric Oxygen Levels
404
Banded Iron Formation
404
Redbeds and
Sulfates
405
Detritai Uraninite
Deposits
406
Paleosols
406
Biologic Indicators
407
Molybdenum in Black Shales
408
Mass-Independent Sulfur Isotope Fractionation
408
The Growth of Atmospheric Oxygen
410
Event
5:
The Snowball Earth
412
The Observational Database
413
The Snowball Model
414
Event
6:
Mass Extinction at the End of the Permian
416
General Features
416
Evidence for Impact
418
LIPVolcanism
418
Shallow-Water Anoxia
419
Catastrophic Methane Release
419
Conclusions
421
Event
7:
The Cretaceous
Superplume
Event
421
Geologic Evidence
421
The Carbon Isotope and Trace Metal Record
424
Seeking a Cause
425
A Possible Superchron-Superplume Connection
425
Event
8:
Mass Extinction at the end of the Cretaceous
426
General Features
426
Seeking a Cause
427
Evidence for Impact
427
Iridium
Anomalies
427
Glass Spherules
428
x¡v
Contents
Soot
428
Shocked Quartz
428
Stishovite
429
Chromium Isotopes
429
LIP Volcanism
429
Chicxulub and the
КД
Impact Site
431
Possibility of Multiple
КД
Impacts
433
Conclusions
433
Further Reading
434
10.
Comparative Planetary Evolution
437
Introduction
437
Condensation and Accretion of the Planets
438
The Solar Nebula
438
Emergence of Planets
439
Homogeneous Accretion
442
Chemical Composition of the Earth and the Moon
443
Accretion of Earth
444
The First
700
Million Years
447
Members of the Solar System
449
The Planets
449
Mercury
449
Mars
453
Crustal Dichotomy
453
Surface Features
454
Martian History
455
Venus
458
In Comparison to Earth
458
Volcanism
462
The Venusian Core
462
Crustal Plateaus
463
Thermal History
464
The Giant Planets
466
Satellites and Planetary Rings
467
General Features
467
Planetary Rings
468
The Moon
468
Rotational History of the Earth-Moon System
471
Satellite Origin
472
Comets and Other Icy Bodies
473
Asteroids
474
Meteorites
476
Chondrites
477
SNC Meteorites
478
Refractory Inclusions
478
Iron Meteorites and Parent Body Cooling Rates
478
Asteroid Sources
479
Contents xv
Meteorite
Chronology
480
Impact Chronology of the Inner Solar System
481
Volcanism in the Solar System
482
Planetary Crusts
484
Plate Tectonics
484
Mineral Evolution
485
Evolution of the Atmospheres of Earth, Venus, and Mars
486
The Continuously Habitable Zone
488
Comparative Planetary Evolution
488
Extrasolar
Planets
492
Further Reading
492
References
493
Index
559
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| bvnumber | BV039718358 |
| classification_rvk | RB 10121 RB 10123 |
| ctrlnum | (OCoLC)756594682 (DE-599)HBZHT016888133 |
| discipline | Geographie |
| edition | 2. ed. |
| format | Book |
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| genre | (DE-588)4123623-3 Lehrbuch gnd-content |
| genre_facet | Lehrbuch |
| geographic | Erde (DE-588)1135962553 gnd |
| geographic_facet | Erde |
| id | DE-604.BV039718358 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:09:38Z |
| institution | BVB |
| isbn | 9780123852274 0123852277 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-024566511 |
| oclc_num | 756594682 |
| open_access_boolean | |
| owner | DE-703 DE-384 |
| owner_facet | DE-703 DE-384 |
| physical | XVIII, 574 S. Ill., graph. Darst., Kt. |
| publishDate | 2011 |
| publishDateSearch | 2011 |
| publishDateSort | 2011 |
| publisher | Elsevier Acad. Press |
| record_format | marc |
| spelling | Condie, Kent C. Verfasser aut Earth as an evolving planetary system Kent C. Condie 2. ed. Amsterdam [u.a.] Elsevier Acad. Press 2011 XVIII, 574 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Originally published: 2005 Historische Geologie (DE-588)4025104-4 gnd rswk-swf Plattentektonik (DE-588)4046317-5 gnd rswk-swf Geodynamik (DE-588)4020212-4 gnd rswk-swf Erdkruste (DE-588)4015169-4 gnd rswk-swf Erde (DE-588)1135962553 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Historische Geologie (DE-588)4025104-4 s Plattentektonik (DE-588)4046317-5 s Erde (DE-588)1135962553 g Erdkruste (DE-588)4015169-4 s DE-604 Geodynamik (DE-588)4020212-4 s 1\p DE-604 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024566511&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Condie, Kent C. Earth as an evolving planetary system Historische Geologie (DE-588)4025104-4 gnd Plattentektonik (DE-588)4046317-5 gnd Geodynamik (DE-588)4020212-4 gnd Erdkruste (DE-588)4015169-4 gnd |
| subject_GND | (DE-588)4025104-4 (DE-588)4046317-5 (DE-588)4020212-4 (DE-588)4015169-4 (DE-588)1135962553 (DE-588)4123623-3 |
| title | Earth as an evolving planetary system |
| title_auth | Earth as an evolving planetary system |
| title_exact_search | Earth as an evolving planetary system |
| title_full | Earth as an evolving planetary system Kent C. Condie |
| title_fullStr | Earth as an evolving planetary system Kent C. Condie |
| title_full_unstemmed | Earth as an evolving planetary system Kent C. Condie |
| title_short | Earth as an evolving planetary system |
| title_sort | earth as an evolving planetary system |
| topic | Historische Geologie (DE-588)4025104-4 gnd Plattentektonik (DE-588)4046317-5 gnd Geodynamik (DE-588)4020212-4 gnd Erdkruste (DE-588)4015169-4 gnd |
| topic_facet | Historische Geologie Plattentektonik Geodynamik Erdkruste Erde Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024566511&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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